KR20140098361A - Apparatus for reducing flooding for ship - Google Patents

Abstract

A flood reducing apparatus for a ship is disclosed. The flood reducing apparatus for a ship according to the present invention comprises: a flexible pouch which is placed in a closed space on a side of the ship and is completely closed; and a foam injection unit which injects a foaming material to the pouch when the closed space is filled with water.

Description

Technical Field [0001] The present invention relates to an apparatus for reducing flooding,

The present invention relates to an immersion reduction apparatus for a ship.

For the sake of safety, the walls of marine structures such as ships and floating marine facilities are partitioned into a number of closed spaces to prevent the seawater from being flooded into the ship in a short time even if a certain space is submerged. Such spaces are called fuel tanks, fresh water tanks, And so on.

In order to ensure stability in the construction of ships and floating marine production facilities, the stability criteria of the relevant international regulations should be met when the confined space is damaged. In the final stage of flooding, the maximum allowable value of the tilt angle Should be satisfied.

In calculating the stability after damage, the permeability of the damaged space depends on the value of the international regulations (60-95% of the total volume of the space) according to the nature of the space. It is very difficult to satisfy the maximum allowable value of the inclination angle required by the international regulations. In such a case, measures such as re-adjusting the boundary of the space or changing the main dimensions are performed in order to reduce the final inclination angle after immersion.

The present invention provides a water immersion reduction apparatus for a ship capable of satisfying the maximum allowable value of the inclination angle required by the international regulation even if the enclosed space partitioned by the vessel is damaged and thereby making it possible to secure the stability of the ship will be.

According to an aspect of the present invention, there is provided a pouch comprising: a flexible pouch disposed in a closed space defined in a wall of a ship and having an inside sealed; And a foam injecting unit communicating with the pouch to inject the foamed material into the pouch when the closed space is submerged.

The foamed material may include a polyurethane resin and a foaming agent foaming the polyurethane resin.

Wherein the foam injection unit comprises: a resin storage tank for storing the polyurethane resin; A foaming agent storage tank storing the foaming agent; A mixing unit which receives the polyurethane resin and the foaming agent from the resin storage tank and the foaming agent storage tank, respectively, and mixes them with each other to produce a foamed resin mixture; And a press-feeding pump connected to the mixing portion and feeding the foamed resin mixture into the pouch.

According to the embodiment of the present invention, even if the enclosed space partitioned on the ship is damaged and flooded, it is possible to satisfy the maximum allowable value of the inclination angle required by the international regulations, and thus the stability of the ship can be ensured.

Brief Description of the Drawings Fig. 1 is a sectional view of a ship equipped with a water immersion reduction apparatus according to an embodiment of the present invention; Fig.
FIG. 2 and FIG. 3 are views for explaining the operating state of a ship immersion reduction apparatus according to an embodiment of the present invention; FIG.

BRIEF DESCRIPTION OF THE DRAWINGS The present invention is capable of various modifications and various embodiments, and particular embodiments are illustrated in the drawings and described in the detailed description. It is to be understood, however, that the invention is not to be limited to the specific embodiments, but includes all modifications, equivalents, and alternatives falling within the spirit and scope of the invention. DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT Hereinafter, an embodiment of a ship immersion reduction apparatus according to the present invention will be described in detail with reference to the accompanying drawings, wherein like reference numerals refer to like or corresponding elements, A duplicate description will be omitted.

FIG. 1 is a sectional view of a ship equipped with a ship immersion reduction apparatus according to an embodiment of the present invention. FIGS. 2 and 3 are views for explaining an operation state of a ship immersion reduction apparatus according to an embodiment of the present invention. FIG. 1 to 3 show an embodiment in which the vessel 12, the wall 14, the sealed space 16, the pouch 18, the foam injection unit 20, the resin storage tank 22, the foaming agent storage tank 24 A valve 26, a pressure feeding pump 28, a mixing portion 30, a damaged portion 32, seawater 34, and a foamed polyurethane foam 36 are shown.

The submergence abatement device of the ship 12 according to the present embodiment is arranged in a closed space 16 partitioned by the wall 14 of the ship 12 and has a flexible pouch 18 ; And a foam injection unit 20 communicating with the pouch 18 and injecting the foamed material into the pouch 18 when the closed space 16 is submerged, 16 is damaged and flooded, the maximum allowable value of the inclination angle required by the international regulations can be satisfied, and thus the stability of the ship 12 can be secured.

In this embodiment, 'ship 12' is a concept that includes various structures such as a ship 12, a floating marine facility, and the like, which are moving in the ocean or dried in the ocean. The wall 14 of the hull constituting the ship 12 is divided into a plurality of closed spaces 16 for securing stability against flooding when the ship 12 is damaged. Therefore, even if a part of the closed spaces 16 is submerged, the seawater 34 is prevented from penetrating into the other closed spaces 16, thereby ensuring the safety of the ship 12. However, even if the wall 14 of the ship 12 is divided into the plurality of closed spaces 16 and the flooding occurs only in a part thereof, the stability of the ship 12 in the final stage of flooding can be secured to ensure safety. The resilience of the ship 12 when it is damaged is related to the flooding rate of the closed space 16.

The immersion reduction apparatus of the ship 12 according to the present embodiment can stably maintain the stability of the ship 12 by lowering the flooding rate of the closed space 16. [ That is, when the ship 12 is damaged, the seawater 34 can be introduced into the closed space 16 partitioned by the wall 14 of the ship 12, so that the foamed filler, which has a lower specific gravity than the seawater 34, 16 to minimize the amount of seawater 34 flowing into the enclosed space 16, thereby lowering the flooding rate.

On the other hand, some of the closed spaces 16 are used as fuel tanks, fresh water tanks, ballast tanks, and the like.

The pouch 18 is disposed in a closed space 16 partitioned by the wall 14 of the vessel 12 and is sealed inside. The inside of the pouch 18 is sealed so that the foamed material injected into the inside does not leak out. The pouch 18 is made of a flexible material so that the foamed material injected therein can be inflated without being damaged even when the foam is expanded and expanded in volume. For example, the pouch 18 may be made of a material including rubber, silicone, or a flexible synthetic resin.

The shape of the pouch 18 may vary depending on the shape of the closed space 16 so that the expanded form of the foamed material can fill the closed space 16. [ Referring to FIG. 2, when the closed space 16 is in the form of a hexahedron, the pouch 18 is formed so that the expanded shape of the pouch 18 is substantially a hexahedron. However, the shape of the pouch 18 is not limited as long as only a part of the closed space 16 is filled with the foam to lower the flooding rate of the closed space 16. [

The foam injection unit 20 communicates with the pouch 18 to inject the foamed material into the pouch 18 when the closed space 16 is submerged. The foam injecting unit 20 is configured to inject the foamed material into the pouch 18 by previously foaming the foamed material in the foam injecting unit 20 or to inject the foamed material chemically or physically foamed into the pouch 18 So that the foam raw material is foamed in the pouch 18.

In this embodiment, the foam raw material is injected into the pouch 18 as a foamed material through the foam injecting unit 20, and the foamed material is foamed in the pouch 18. That is, the foamed material includes a polyurethane resin and a foaming agent for foaming the polyurethane resin. When the sealed space 16 is submerged, the polyurethane resin and the foaming agent are injected into the pouring inlet 20 Into the pouch 18 and foamed in the pouch 18. The pouch 18 is then pushed into the pouch 18, As the foaming agent for the polyurethane resin, water, fluorocarbon or the like may be used, and a catalyst such as an amine compound may be mixed for promoting foaming.

The foamed resin mixture injected into the pouch 18 is expanded through a chemical reaction to form a foamed polyurethane foam 36 corresponding to the shape of the pouch 18 and the foamed polyurethane foam 36 is sealed in the sealed space 16 ) To lower the settling amount of the seawater (34).

In order to inject the foamed material into the pouch 18, the foam injection unit 20 according to the present embodiment includes a resin storage tank 22 for storing the polyurethane resin, a foaming agent storage tank 24 for storing the foaming agent, A mixing unit 30 which receives the polyurethane resin and the foaming agent from the resin storage tank 22 and the foaming agent storage tank 24 and mixes them with each other to produce a foamed resin mixture; And a pressure feeding pump 28 for feeding pressure into the pouch 18.

The pouches 18 are installed in each of the closed spaces 16 where there is a risk of flooding when the ship 12 is damaged and the pouches 18 are stored in the resin storage tank 22 provided in a certain space in the ship 12, The tank 24 and the mixing portion 30 are connected to each other by a pipeline or a hose to inject the foamed resin mixture into the pouch 18 located in the closed space 16 when the flooding occurs.

 When flooding occurs in the closed space 16, the resin storage tank 22 and the foaming agent storage tank 24 supply the polyurethane resin and the foaming agent to the mixing portion 30 at an optimum compounding ratio. In the mixing section 30, a polyurethane resin, a foaming agent, a catalyst, and the like are mixed with a mixer or the like to produce a foamed resin mixture, and the foamed resin mixture is injected into the pouch 18 through a pressurization pump 28. The foamed resin mixture injected into the pouch 18 is foamed while reacting with each other to form the foamed polyurethane foam 36.

2 and 3 are views for explaining the operating state of the submergence reducing apparatus of the ship 12 according to the present embodiment. FIG. 2 shows a state before the foamed resin mixture is injected into the pouch 18, and FIG. 3 Shows a state in which the foamed resin mixture is injected into the pouch 18 to form the foamed polyurethane foam 36. [

As shown in FIG. 2, when the wall 14 of the ship 12 is damaged, the seawater 34 flows through the damaged portion 32 of the closed space 16 defining the wall 14. The polyurethane resin and the foaming agent are supplied to the mixing portion 30 at the optimum mixing ratio in the resin storage tank 22 and the foaming agent storage tank 24 when the inflow of the seawater 34 into the sealed space 16 is detected, (30), a polyurethane resin, a foaming agent, a catalyst, etc. are mixed with a mixer or the like to produce a foamed resin mixture. The foamed resin mixture produced in the mixing portion 30 is injected into the pouch 18 through the pressure feeding pump 28 while the valve 26 is opened. The foamed resin mixture injected into the pouch 18 reacts with each other to foam the polyurethane resin and fill the pouch 18 while expanding its volume as shown in Fig. The inflated pouches 18 seal the enclosed space 16 and minimize the space in which the seawater 34 can enter, thereby lowering the flooding rate of the enclosed space 16. [

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the present invention as set forth in the following claims It will be understood that the invention may be modified and varied without departing from the scope of the invention.

Many embodiments other than the above-described embodiments are within the scope of the claims of the present invention.

12: Ship 14: Wall
16: sealed space 18: pouch
20: foaming injection part 22: resin storage tank
24: Blowing agent storage tank 26: Valve
28: a pressure feeding pump 30:
32: damaged part 34: seawater
36: Foamed polyurethane foam

Claims (3)

A flexible pouch disposed in a closed space defined in the wall of the ship and having an interior sealed;
And a foam injecting unit communicating with the pouch to inject the foamed material into the pouch when the closed space is submerged. The method according to claim 1,
Wherein the foam material comprises a polyurethane resin and a foaming agent foaming the polyurethane resin. 3. The method of claim 2,
The foam injection unit
A resin storage tank for storing the polyurethane resin;
A foaming agent storage tank storing the foaming agent;
A mixing unit which receives the polyurethane resin and the foaming agent from the resin storage tank and the foaming agent storage tank, respectively, and mixes them with each other to produce a foamed resin mixture;
And a pressurization pump connected to the mixing section to press-feed the foamed resin mixture into the pouch.

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